Apparatus for indicating instantaneously and at a remote point the tuning condition of one or more wave signal receivers



s. H. BATEMAN ETAL 2,676,084

4 Sheets-Sheet l APPARATUS FOR INDICATING INSTANTANEOUSLY AND AT A REMOTE POINT THE TUNING CONDITION OF ONE OR MORE WAVE SIGNAL RECEIVERS 2 Q 5 on t a o a n\. a 9 m |U| M u a I... Q- m h .Q F s n e Q Q h m vvvvv ao Q 5 w -w 0- o\ 8 F .8 mm m s I E09 09 N 1 w J 4 1 8 Nw m: T o 21$ A mm mm mm O= t-E u hm fl m fww QEQUQQ m .552 \ri iam? 30 23 a] J 0 H w w Jm wm r 3 m r 2028 4 P521032 528% r J m+ w mm Kw 5 mm 2926 3528 I III I II J J.

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April 20. 1954 Filed Feb. 2, 1949 Apri 20. 1954 G. H. BATEMAN EI'AL 2,676,084

APPARATUS FOR INnIcA'rINc INSTANTANEOUSLY AND AT A REMOTE POINT THE TUNING CONDITION OF ONE OR MORE WAVE SIGNAL RECEIVERS Filed Feb. 2, 1949 4 Sheets-Sheet 2 CENTRAL STATION .J NF 9 1 3 LL E E5 g 55 E 6 35 5 a n 5 08 O 2 5 4 'Z d o N\ mg I? S Y AVAA'L lll'l I I 2 u.-

o o a 0 r' Q Q a: D: 6 [D \J 2% m m 2 2;, Lu "9 J x a 5: 9 F 5 f; 2? 5 8 u a: n: O'\, O" 0-0 8 a: 2 o. N In o *5 3 3|- 2 m r LL N m o 1* l I N r m a p I A n u.r w w 2 rm v i 9 0 Q L J LO LO v cu E h" 1 INVENTORS George H. Baremun y Robert L. Freeman Darrel W. Holbroo $7M, WWI fw 1% W5.

April 1954 cs. H. BATEMAN ETAL 5 9 APPARATUS FOR INDICATING INSTANTANEOUSLY AND AT A REMOTE POINT THE TUNING CONDITION OF ONE OR MORE WAVE SIGNAL RECEIVERS Filed Feb 2 1949 4 Sheets-Sheet 3 m F l R I a uo f m I I g onuouoooouoaoooootnonc m N l #1 a g s 5/ I z 2| lg 5nloal0lun fiwwu A q D000 4 o 5 2| HF I u '2 .1 I: z "E w o 2 M. 8 :E k u 5. t

:l-fi 911 9 1 F u m J\ G.) T A- l z LlJ l :0 cc Q U! q- E 9- v H o mum! w T a: INVENTORS Q J George H.Buteman BY Robert L. Freeman -;L Darrel .Holbrook '2 @4014 h Anya Apnl 20. 1 G. H. BATEMAN EI'AL APPARATUS FOR INDICATING ms'rmmusousu AND AT A REMOTE POINT THE TUNING counnmn 0F on: OR MORE WAVE srcmu. RECEIVERS 4 Sheets-Sheet 4 Filed Feb. 2. 1949 amp" INVENTORS George H Bate mun J80 BUBSN f 6% 8- EMEIQSE 523mm y Robert L. Freeman Darrel W. Holbro k A fys in the report, which Patented Apr. 20, 1954 APPARATUS FOR INDIGATING INSTANTA- NEOUSLY AND AT A REMOTE POINT THE TUNING CONDITION (1F ONE OR MORE WAVE SIGNAL RECEIVERS George H. Bateman, Chicago,

man, Evanston, 111.,

Company, a corpora and Robert L. Freeand Barr l ll lbr ok, Ladysmith, Wis., assignors to A. C. Nielsen tion of Illinois Application February 2, 1949. Serial No. 14,074

15 Claims.

The present invention relates to a system and apparatus for indicating at a remote point the instantaneous condition of one or more wave signal receivers. Specifically the present invention is an improvement on copending Black application, Serial No. 625,371, filed October 29, 1945 and assigned to the same assignee as the present application.

In recent years it has become apparent that instrumented methods of determining the listen- 1 ing habits of users of wave signal receivers is the only satisfactory way of obtaining accurate information in this regard. In many cases it is desirable that information with respect to the tuning condition of a plurality of wave signal receivers be instantaneously available at a central station or central point remote from the place where the receivers are located so that the analysis organization which prepares an analysis of the list ning habits of wave signal receiver users may have this information to prepare reports with a minimum of delay. It will be understood that if it is necessary to record the information at the various homes in which the wave signal receiver use is to be logged that the gathering of the recorded information at the end of each day for example is, if not impossible, at least prohibitive from a cost standpoint. Obviously, if the record produced of the tuning conditions of the receivers is permitted to accumulate for a predetermined calendar period of a week, two weeks, or longer as is usually the case, a substantial delay is eventually prepared based on the facts obtained by the instrumented methads, is immediately introduced. Consequently it is desirable, particularly in areas where a substantial number of homes are logged, to have an arrangement whereby the information of the tuning condition of receivers is instantaneously available at a central station.

Accordingly, it is an object of the present invention to provide new and improved apparatus for indicating at a remote point which may be a central indicating or recording station, the tuning condition of receivers located at distant points from the recording station.

A further object of the present invention is to provide new and improved radio receiver tuning indicating apparatus for instantaneously indicating at a remote point the tuning condition of a radio receiver.

A further object of the present invention is the provision of a new and improved remote radio receiver tuning indicating means, comprising synchronous means at the remote recording or indicating pointand additional synchronous means associated with the wave signal receiver being monitored together with means for maintaining said synchronous means in synchronism so that accurate and instantaneous indications of the tuning condition of the wave signal receiver will he produced at such point remote from the reoeiver.

Still another object of the present invention is to provide synchronous instantaneous apparatus disposed at a central station or recording point remote from homes where wave signal receivers to be logged are located and cooperative with synchronous means located at such homes for continuously, instantaneously and accurately indicating not only the tuning condition of such wave signal receivers, but also whether such receivers are turned on or off.

Further objects and advantages of the present invention will become apparent as the following description proceeds, and the features of novelty which characterize the invention will be pointed out with particularity in the claims annexed to and form-ins a part of this specification.

For a better understanding of the present invention reference may b h t the ompa ying drawings in which:

Fig. 1 is a schematic representation of one embodiment of the present invention;

Fig. 2 is a schematic representation illustrating still another embodiment of the present invention;

Fig. 3 is a schematic diagram illustrating a mod ficat on of Fig. 2; and

Fig. 4 is a schematic diagram of still another emb diment of the present invention.

In brief the present invention has for its primary purpose the instantaneous indication or Rimmin or both, at a central station of the tuning condition of wave signal receivers located in various homes. These homes will constitute a sample representative of all the listeners of particular transmitting stations, or viewers in the case of television. It will be understood that the actual sample will comprise several hundred or even hundreds of broadcast receivers located in hprnes within the radiation areas of different wave signal transmitters broadcasting the particular programs of interest. By obtaining accurate information with respect to the tuning conditions of all the receivers employed in the homes constituting the sample, it is possible to make a statistical analysis of the listening habits from which the various factors affecting the sales eflcctiveness of particular radio programs or advertising schemes may be arrived at. It will be understood that the collaborator homes. that is the homes in which wave signal receiver use is to be logged, shall be chosen on a basis such that all of the variable factors, as for example, the number of potential listeners, economic ailiuence, religion, etc. which normally affect any process of sampling public opinion, are accounted for on a weighted basis. The present invention is concerned with an arrangement whereby at a central recording point a record or indications may be produced of the tuning conditions of a plurality of wave signal receivers included within the sample. Since the central station is under the control of the analysis organization the information with respect to the tuning conditions of the receivers is continuously and instantaneously available to the analysis organization whereby it is possible to analyze the data received and preferably recorded and produce the necessary reports in a minimum of time.

Referrin now to Fig. l of the drawings, it will be apparent that the apparatus or system of the present invention essentially comprises two main units which are used in association with a wave signal receiver such as Ill. These units comprise a receiver attachment H and a central station l2. Although only a single wave signal receiver H] has been illustrated, it should be understood that a plurality of wave signal receivers located in the same or different homes would normally be employed and with each of these wave signal receivers there would be provided a receiver attachment l I. For one or more of the wave signal receivers l and receiver attachments H there would only be a single central station I 2 which as is illustrated in the drawings is connected to the receiver attachment by a pair of telephone lines I3 which may be leased telephone lines or the like. These telephone lines are indicated with a dotted portion to designate the remote relationship between the central station l2 and the receiver attachment Preferably the receiver attachment H is closely associated with the receiver in and furthermore is preferably of sufiiciently small bulk so as to be readily disposed within the available space in the cabinet of the wave signal receiver l0.

As illustrated the wav signal receiver I0 comprises an antenna ground circuit l4 and a signal reproducer or loud speaker I5. The wave signal receiver It further includes the conventional manual on-off switch l6 which normally also comprises the manual volume control means.

This on-oif switch l6 comprises a pair of relatively movable contacts I! and Is for controlling the flow or current through a suitable power cord l9 when the power cord is connected to a suitable source of electrical energy.

It will be understood that the wave signal receiver I|l might comprise any type of wave signal receiver which is capable of controlling the receiver attachment in a predetermined manner in dependence upon the tunin condition of the wave signal receiver I0. For example the receiver attachment may be controlled by a mechanical connection with the wave signal receiver (see Fig. 4 of the drawings) so that the mechanical positioning of the tuning mechanism of the Wave signal receiver I0 produces a predetermined control of the receiver attachment As illustrated in Fig. 1 of the drawings, however, the wave signal receiver I0 is a superheterodyne recelver com risin the conventional local oscillathe open position since the relay tor 20 which is capable of producing an output signal uniquely indicative of the tuning condition of the wave signal receiver Ill. The signal output of the local oscillator 20 of the Wave signal receiver In is suitably coupled as by means of a couplin capacitor 2| with the receiver attachment II in a manner to be described in detail hereinafter.

For the Purp se of rendering the receiver attaehment operative when and only when the wave signal receiver in is turned on the receiver attachment H is provided with a power supply unit generally designated at 23 which comprises a series relay 24 havin its winding 24a connected in series with the wave signal receiver power cord l9, when the receiver attachment H is operatively associated with the wave signal receiver l0. As illustrated the power supply unit 23 is connected by means of a power cord 25 with a suitable source of alternating potential 26, and the power cord I9 of the wave signal receiver I0 is connected in series relationship with the winding 24a of the relay 24 as by means of suitable conductors 21. When the receiver I0 is turned on the relay 24 is energized and when the receiver I0 is turned oil the relay 24 is deenergized. The relay 24 comprises a pair of normally open contacts 28 which are adapted to be closed when the wave signal receiver In is turned on so as to provide alternating potential at the alternatin current terminals 29 of the power supply unit 23. The relay 24 further controls the energization of the rectifier and filter unit 30 so as to provide a source of +3 potential at the terminal 3| or the power supply unit 23.

In order to provide a signal indicative of the tunin condition of the wave signal receiver I0 which may be transmitted to a remote point such as the central station l2 for performin a suitable control function, the receiver attachment H includes a unit which is sometimes referred to as a hunter unit since when rendered eileotive it performs a hunting operation to hunt a position or a characteristic indicative of the tuning condition of the Wave signal receiver II). This hunter unit as illustrated comprises a, superheterodyne receiver including a radio frequency amplifier stage or unit 33, a mixer unit 34, an audio intermediate frequency amplifier unit 35, a detector and direct current amplifier unit 38 and an oscillator unit 31. Except for the oscillator unit 31 the units 33 to 36 inclusive are connected in tandem in the order named. The signal output from the local oscillator 20 is supplied through the coupling capacitor 2| to the radio frequency amplifier stage 33 from where it is mixed in the mixer stage 34 with the output signal of the oscillator 31. If the output of the mixer stage 34 has a predetermined frequency equal to the audio intermediate frequency then a signal is supplied to the detector unit 36 which is capable of being detected. The amplified output of the detector 36 is connected to the source of +B potential through a suitable windin 39 of a relay 40. The relay 40 is normally energized to close its contacts 4| when a source of +3 potential is availabl at the terminal 3| and no signal is detected by the detector 36. If a signal is detected the relay 4!! is deenergized to open its contacts 4|. The contacts 4| are shown in 28 controlling the supply of +13 potential at the terminal 3| is in the open position due to the fact that the wave Signal receiver I0 is turned off.

To produce the hunting operation mentioned above the oscillator 31 comprises a tuned circuit 2 including a resonant frequency varying means schematically illustrated as a variable capacitor 3. The capacitance of the capacitor 53 is variable through the frequency spectrum of the oscillater 31 as for example by being driven by a synchronous' motor and gear train unit 46 capable of rotating the rotor plates of the condenser 43 through a shaft 45- preferably at a speed of one revolution per minute. It will be apparent that if the synchronous motor 44 is energized whenilr'the' signal outputs of the local oscillators and 31 do not bear a predetermined relationship to each other with respect to frequency, is deenergized whenever the frequencies or the signal outputs of such oscillators bear a predetermined relationship to each other that the hunter unit will hunt the correct signal and stop.

is accomplished in ccordance with the presiit invention by connecting the contacts M of the relay MI in series with the energization ciriiit or the synchronous motor M.

For reasons fully disclosed in the above mentiond copending Bateman and Krahulec application, Serial No. 33,798 filed June 18, 1948, and assigned to the same assignee as the present application it is desirable to have the synchronous motor 44, when deeriergized, stop at a suitable indiiing or homing position which is the same at an times. Accordingly there is provided a cam operated switch generally designated at 46 comprising a cam 41 driven by the motor 44, and a switching member G8, engageable with a stationary contact 49. The switching member 48 is adapted to engage the stationary contact 48 for all positions of the synchronous motor 44 except the homing or indexing position thereof. The cam controlling switch is adapted to parallel the contacts 28 of the series relay 24, whereupon the synchronous motor 44 once it is energized remains energized even though the contacts 28 are opened until it has moved to its indexing or homing position whereupon the cam controlled switch 46 interrupts the motor circuit.

Preferably the intermediate frequency of the unit 35 is an audio frequency chosen somewhere between 100 and 1,600 cycles. It will be apparent that when the capacitance of the capacitor 13 approaches a position corresponding to the tuning condition of the wave signal receiver Ill that a particular beat note is produced in the mixer unit 34. In accordance with the present invention a beat note amplifier 50 is provided capable of amplifying a particular beat note of a frequency between 100 to 1,000 cycles obtained from the mixer unit 34. This particular note when amplified by the amplifier 5D is supplied through suitable capacitors 5! to telephone lines l3 inter connecting the receiver attachment H with the central station l2. Preferably also the terminals of the synchronous motor 44 are connected to the telephone lines [3 through a suitable step down transformer 52 and coupling capacitors 53. With this arrangement it will be observed that upon onergization of the synchronous motor 44 a oyclo potential will be supplied to the telephone lines l3. Furthermore when the hunter unit approaches its on-signal-position it indicates the tuning condition of the wave signal receiver in and at such time a signal is detected by the detector unit 36 causing deenergization of the relay M. Simultaneously therewith a beat note is produced in the mixer unit 34 which is supplied t6 the telephone lines It! for the purpose of per-- 6 forming a. predetermined control function which is described in greater detail hereinafter.

In accordance with the present invention there is provided at the central station I2 suitable sipparatus controlled in response to the signals supplied to the telephone wires l3 through the coupling capacitors 5t and 53 respectively. As illustrated there is provided at the central station If! a recorder generally indicated at 60 which is controlled in response to the signals supplied over the telephone lines I3. The recorder it! is furthermore controlled by a pair of relays designated as 5i and 62 respectively. The relay ii is controlled by a signal path including the telephone wires ft, the coupling capacitors 63, an amplifier 64, a low pass band filter 65 and a detector and direct current amplifier 68. The low pass band filter 65 is designed so as to pass low frequency alternating currents within the range of two to sixty cycles per second. It will be apparent therefore that with this arrangement the relay Si is controlled in response to the (SO-cycle energy supplied to the telephone lines i3 through the coupling capacitors 53. Preferably the relay Si has its winding connected in series with. a source 01' +3 potential supplied to the detector and direct current amplifier 65. When no sixty cycle signal is received. by the detector 66, the relay BI is energized as illustrated in the drawlugs to open the contacts 61. When the sixtycycle signal is detected the relay 6! is deenergized and the contacts 81 are closed.

The central station i2 includes a second Signal path including the telephone wires i3 which comprises in addition to the wires I3 and the coupling capacitor 63 and amplifier 64, a high band pass filter l8, and a detector and direct current amplifier H. The high pass band filter 1D is pref erably designed to pass signals of a frequency corresponding to the beat note supplied from the beat note amplifier 50. Whenever a beat note is supplied by the receiver attachment I I through the coupling capacitors 5! a signal is detected by the detector H to cause deenergization of the relay 62 to open its normally closed contacts 73. The relay 62 is normally energized to close the contacts 13 as shown in Fig. l of the drawings when no signal is detected.

With the above described arrangement it is apparent that the receipt of a sixty-cycle signal at the central station !2 causes contacts 61 to close, and the receipt of a beat note signal, causes the contacts 13 to open. This operation of the relays GI and B2 is employed to control the recorder (ill in a manner to be described hereinafter.

It will be understood that the recorder 60 may comprise any type or recorder such, for example as are shown in Figs. 2 and 4 of the drawings. As illustrated, however, the recorder 60 is of the type shown in copending Krahulec et a1. application, Serlal No. 147,304, filed March 2, 1950, and also assigned to the same assignee as the present application. This recorder 60 comprises a movabl recording element I5 in the form of a record tape having perforations along both edges so as to be driven by a rotatable sprocket 18 drivingly connected to a synchronous motor l1. Preferably the motor l1 continually drives the sprocket 16' so as to cause the tape T5 to move at a constant speed from a supply spool 18 to a take up spool 19.

For the purpose of producing a record on the recording element 15 at various transverse positions thereof which would be indicative of the tuning condition of the wave signal receiver I there is provided a rotatable member 88 in the form of a cylinder having a raised helix 8| formed on the outer surface thereof which helix makes one complete revolution within the confines of the recording element l5. Preferably the cylinder 80 supporting the helix is adapted to be rotated at one revolution per minute by means of a synchronous motor and gear train unit 83. Means may be provided for continually biasing the recording element into engagement with the helix 8| to produce the desired record indications on the recording element 75. As illustrated, however, the helix 8| is normally free of the re cording element 15 and does not engage the same. A suitable solenoid actuated printer bar 84 is provided which is capable of engaging the recording element 15 to press it into engagement with the helix 8| so as to produce a record indication at points positioned transversely of the recording element 15 depending upon the particular portion of the helix 8| which is ffective at the time the printer bar 84 is moved into en gagement with the recording element 15.

As illustrated the synchronous motor 83 is connected to a source of alternating current potential generally designated at 87 through the serially arranged contacts 61 and 13 of th relays 6| and 62 respectively. Whenever a sixty-cycle signal is received at the central station I 2, the relay 6| closes its contacts 81 to energize the motor 83 which rotates the cylinder 80 at a synchronous speed, and if the synchronous motor 83 starts from an indexing position identical with the homing position of the synchronous motor 48 then the helix 8| is positioned in predetermined manners corresponding exactly to the position of the rotor plates of the capacitor 43. When a beat note frequency is received at the central station l2 the contacts 13 of the relay 82 are opened and the synchronous motor 83 stops. It will be apparent that with this arrangement the synchronous motor 83 can be caused to operate in exactly the same manner as the synchronous motor 44.

In order that the synchronous motor 83 may initially start from a homing or indexing position so that at all times it is maintained in synchronism with the motor 44, a suitable cam actuated switch generally designated at 9| is provided which is very similar to the cam operated switch 46 described above. Thi cam operated switch 9| comprises a cam 92 which is rotatable by the motor 83. The cam 92 has a flat surface at one portion thereof for controlling a switching member 93 which is engageable with a stationary contact 84. The cam operated switch 9| is connected in parallel with the contacts 61 of the relay GI and completes such a parallel circuit at all times except when the synchronous motor 83 is in its homing or indexing position illustrated in Fig. l of the drawings.

As was mentioned above the printer bar 84 may be continually biased so as to cause the helix 8| to engage the recording element at all times whereupon a trace is produced transversely of the element 15 depending upon the particular position of the cylinder 88 upon which the helix 8| is mounted. As illustrated, however, the printer bar is normally biased out of engagement with the record ng element 15 and is moved into engagement therewith upon energization of the winding 95 of a suitable solenoid 96 which is energized with a direct current potential by virtue of a rectifier and filter unit generally designated at 99 whose input terminals are connected across the motor circuit for the synchronous motor 83. Consequently the printer bar 81 is rendered elfective to cause a trace to be produced upon the recording element 15 whenever the motor 83 is energized.

Considering now the operation of the arrangement disclosed in Fig. 1 it will be noted that when the receiver I0 is turned off the power supply unit 23 is deenergized and no signal is supplied from the receiver attachment II to the telephone wires l3. The central station l2 on the other hand is energized so that the relays 8| and 62 assume the positions shown and of course the synchronous motor ll drives the recording element 15 at constant speed or in some other predetermined manner with respect to time. When the wave signal receiver H] is turned on current flows through the winding of the series relay 24 causing it to close its contacts 28 whereupon both alternating current and +3 potential are available at the terminals of the power supply unit 23. By virtue of the cam switches 45 and 8| the synchronous motors 44 and 83 are in an indexing or homing position which is identical for each of the motors. As soon as the electron discharge valves in the receiver attachment warm up following the turning on of the receiver ill the relay 48 is energized to close its contacts ll and to energize the motor 44 which begins to rotate the plates of the variable condenser 43 hunter unit described above. Simultaneously a (ill-cycle potential is applied to the telephone wires |3 causing the relay 8| to close its contacts Bl at the central station I2 whereupon the synchronous motor 83 follows the movement of the synchronous motor 44. It will be apparent therefore that the position of the helix 8| at the central station l2 will correspond with the position of the rotor of the condenser 43 at the receiver attachment II. Th hunter unit at the receiver attachment H will hunt the channel to which the wave signal receiver I0 is tuned and as it approaches a position corresponding to the tuning condition of the wave signal receiver It the detector 36 detects a signal causing deenergization of the relay 40 thereby stopping the motor 44 at a predetermined position corresponding to the tuning condition of the wave signal receiver ID. The signal detected at the detector 36 is a beat note frequency which is transmitted by the telephone Wires I3 and the signal path comprising the high pass band filter H1 at the central station l2. This results in the deenergization of the relay 62 to open the circuit of the synchronous motor 83 to stop the synchronous motor 83 at a point corresponding to the position of the synchronous motor 44. It will be understood that upon deenergization of the synchronous motor 44 the relay 6| at the central station I2 is again energized to open the contacts Bl. Unless the recorder 60 is in the homing position shown in Fig. 1 of the drawings the cam switch 9| is closed thereby effectively rendering the operation of the relay 6| ineffective and turning complete control of the synchronous motor 83 over to the relay 62. While the motor 83 is energized the solenoid 96 is also energized to render the printer bar 81 effective to produce a trace on the recording element 15. The end of the trace is therefore indicative of the tuning condition of the wave signal receiver 8 and the absence of a trace while the motor 83 is moved toward a homing position indicates that the wave signal receiver I0 is not turned on. It will be understood that the printer bar 01 may be in continual engagement with the recording element 15 in which case a continuous indication of th tuning condition of the wave signal receiver I is produced.

From the above description it will be noted that there has been provided an arrangement whereby through employment of two synchronous motors at remote points interconnected by telephone lines I3 a continuous and instantaneous record of the tuning condition of a wave signal receiver is produced and a simple means for maintaining these motors in synchronism is provided.

With the arrangement disclosed in Fig. 1 control of the synchronous motor at the remote station is obtained by transmitting signals having different frequency characteristics for producing the desired control. It will be understood that other variable cha acteristics may be employed for producing such control. In Fig. 2 of the drawings there is illustrated an arrangement whereby variations in current magnitude control the recording unit at the central station and particularly maintain the synchronous motors at the receiver attachment and the central station in synchronism at all times.

Referring now to Fig. 2 of the drawings there is illustrated another embodiment of the present invention in which the corresponding ele-- ments thereof are designated by the same reference numerals as in Fig. 1 of the drawings. The wave signal receiver I0 has associated therewith a receiver attachment I00 which includes a hunter unit very similar to the hunter unit described in connection with Fig. l. The radio frequency amplifier 33 and the beat note amplifler 50 have been omitted. The relay 40 has been provided with an additional set of contacts Ma over and above the contacts 4! described above. Similarly the serially arranged relay 24 of the power supply unit 23 is provided with an additional set of normally open contacts 20a, The synchronous motor 44 drives an additional cam switch generally indicated at I02, comprising a cam I03. a switch member I04 and a stationary contact I05. The cam switch I02 is illustrated as being connected in series with the contacts Ma and is adapted to maintain the switch I04 closed through 180 of rotation of the synchronous motor M and to open the switch through the other 180 of rotation.

For the purpose of interconnecting the central station generally designated at I01 and the receiver attachment I00 the telephone wires I3 are again employed. As illustrated the telephone wires l3 at the receiver attachment end are connected together through a pair of serially arranged resistors I08 and I09 and the winding IIIIa of a relay H0. The relay H0 is provided with normally open contacts iII which are connected in series with the energization circuit of the synchronous motor M. The relay H0 is a relatively sensitive relay and by way of exampie may comprise a relay capable of closing its contacts I I I when a current of three milliamperes or more flows through the winding HM and consequently through the telephone wires I3. At the recorder end of the central station I01 the telephone wires I3 are connected to a source of direct current potential generally designated at H3 through the serially arranged windings Illa and HM oi relays II and H respectively. A suitable adjustable resistor H2 is preferably also provided to adjust the initial impedance of the telephone wires l3.

Preferably the relay H4 is more sensitive than the relay II5 but less sensitive than the relay I I0. By way of example if the relay I I0 is chosen to close its contacts III when a current of three milliamperes flows through the telephone wires I3 the relay I I4 might be chosen to close its normally open contacts IIIi when a current of 6 milliamperes flows through the telephone wires I3 and the relay H5 might be chosen to close its normally open contacts II'I when a current of 12 milliamperes flows through the telephone wires I3.

The resistors I08 and I09 preferably have such values of resistance that when proper adjustment of the resistor I I2 is made a current of three milliamperes flows through the telephone wires I3 and the resistors I00 and I09 in series, assumin both resistors I08 and I09 are fully effective. The resistor I08 is adapted to be short circuited or lay-passed by a suitable circuit indicated at I I9 including the normally open contacts 20a of the series relay 24. When the contacts 28a are closed and the resistor I08 is short circuited a current of approximately six milliamperes is caused to flow through the telephone wires I3 due to the proper choice of the resistor I09. If the resistor I09 and the resistor I08 are both short circuited, which is accomplished by means of a circuit I20 including a cam switch I02 and the contacts a of the relay 40, then the current flowing through the telephone wires I3 preferably has a value of 12 milliamperes.

With the arrangement described it will be apparent that three levels of current are capable of being caused to florw through the telephone wires I3 to perform the desired control operations. When the wave signal receiver I0 is turned off the elements at the receiver attachment I00 are in the position indicated and the resistors I08 and I09 are effective to limit the current flowing in the telephone wires I3 to a minimum value which, however, is sufficient to energize the relay H8 to close its contacts III. The relay H0 is efiectively a power failure relay in that it opens the circuit of the motor 44 in the event of a failure of the power at the source H3, which is illustrated as a direct current source, or an open circuit occurs in the telephone wires I3. By virthe of the cam switch 40 the synchronous motor 44 always starts from an indexing or homing position when the receiver I0 is turned on. It will be apparent that when the receiver I0 is turned on, and assuming no failure of the power source H3, and no open telephone wire, the series relay 24 closes its contacts 20 and 20a. The contacts 2 0 supply power to the relay 40 causing it to close its normally open contacts 4| and Ma, as soon as the electron discharge valves in the receiver attachment I00 are heated sufficiently. Since the motor 44 is in its indexing or homing position when the receiver I0 is first turned on by virtue of the operation of the cam switch 40 the hunter unit starts its return stroke during which time the cam switch I02 maintains the circuit I20 through the contacts Ma in the open condition. The synchronous motor 44 rotates the rotor blades of the capacitor 43 in an effort to hunt the tuning position of the receiver I0. Since the contacts 23a of the series relay 24 have shorted the resister I08 a current of an intermediate level flows through the telephone wires I3 which current is sufficient to cause the relay Ill to close its contacts IIB.

.As illustrated in Fig. 2 there is provided at the central station I01 a recorder unit generally designated at I30 having the corresponding parts thereof designated by the same reference numerals as in the preceding figure. Instead of the helical type of recorder there is illustrated a pivotally mounted stylus I3I having an inscribing point I32 for engagement with the recording element I5. The stylus I! is illustrated at I33 as being pivotally mounted to a support I34. The stylus I 3| is driven by a suitable synchronous motor 83 to move back and forth across the recording element I5. As illustrated the synchronous motor 83 is connected to the end of the stylus I3I remote from the inscribing point I32 by means of a shaft I35 a crank arm I36 and a link I31. Preferably the synchronous motor 83 causes the shaft I35 to rotate at one revolution per minute in the same manner as the motor 44 causes the rotation of the cam I03 at one revolution per minute.

For the purpose of controlling the efl'ectiveness of the inscribing point I32 of the stylus I3I the support I34 is preferably pivotally mounted as indicated at I 39 and is biased by means of a spring I40 so that the inscribing point I32 is normally out of engagement with the recording element 15. Preferably a portion of the support I34 forms the armature of an electromagnet comprising the winding I42. Energization of the winding I42 of the electromagnet causes the inscribing point I32 of the stylus I3I to engage the recording element I in a trace producing manner. As illustrated the winding I42 of the electromagnet is connected to a source of potential, indicated as the source I I3, by means of the normally open contacts IIB of the relay H4.

The normally open contacts In of the relay I I5 are adapted to control the energization of the motor 83 by connecting it to a suitable source of potential designated at 81. Preferably the synchronous motor 83 drives a cam switch I45 comprising a cam I45, a switching member I41 and a stationary contact I48. The cam switch I45 is adapted to close the energizing circuit of the synchronous motor 83 during the so-called retrace period when the stylus I32 moves from the right hand edge of the recording element I5 as viewed in Fig. 2 of the drawings to the left hand edge Where it is specifically shown in Fig. 2. The synchronous motor 83 is therefore automatically moved to the left hand edge of the tape I5 whenever it reaches its extreme right hand position regardless of the conditions at the receiver attachment I00. The synchronous motor 44 on the other hand by virtue of the cam switch 48 always assumes a position when the receiver I0 is turned off, which corresponds to the position of the stylus I3I when at the right hand edge of the tape as viewed in Fig. 2 of the drawings.

Considering now the operation of the arrangement disclosed in Fig. 2 of the drawings it is assumed first that the receiver I0 is turned off and all of the elements of the device are in the position shown in Fig. 2 of the drawings, with the exception of the relay II 0 which is energized to close its contacts I I I since it is assumed that the telephone wires I3 are intact and power is applied at the terminals II3. As the receiver I0 is turned on the series relay 24 is energized to supply power to the hunter unit. Simultaneously the contacts 28a short circuit the resistor I08 Whereupon the magnitude of the current flowing in the telephone wires H3 is increased sufiiciently to energize the relay II4 to cause the inscribing point I32 of the stylus I3! to engage the recording element 15. Upon suflicient heating up iii) tor 03 causes the of the electron discharge valves embodied in the receiver attachment I00 the relay 40 is energized to close its contacts M and Ma. Consequently motor 44 begins to rotate to cause the hunter unit to hunt the channel to which the receiver I0 is tuned. As soon as the synchronous motor 44 reaches the beginning of the hunting cycle which corresponds to the position of the motor 83 shown in Fig. 2 of the drawings the cam switch I02 closes to short out the resistors I08 and I00, whereupon the magnitude of the current flowing through the telephone wires I3 is increased sufliciently to energize the relay II5 as well as the rela I I4, and the synchronous mostylus I3I to move in synchronism with the synchronous motor 44. As the hunter unit reaches a position indicative of the tuning condition of the wave signal receiver I0 the detector detects a signal which deenergizes the relay with the consequent opening of the contacts 4I and Mo, to remove the by-pass around the resistors I00 and I09 and to stop the synchronous motor 44. Since the by-pass around resistor I08 is still effective, the current flowing through the telephone wires I3 drops to an intermediate level with the consequent deenergization of the relay II5 so that the synchronous motor 83 stops at a position corresponding to the tuning condition of the receiver I0. The stylus I3I remains effective to produce a trace on the re-- cording element I5, the transverse position of which is indicative of the tuning condition of the wave signal receiver I0. As long as the tuning condition of the receiver I0 remains unchanged the stylus I3I continues to make a straight line trace on the recording element I5.

If the tuning of the receiver I0 is changed the hunter unit again operates through energization of the relay 40 to cause synchronous motors 44 and 83 to assume new positions. When the stylus I 3| has moved to its extreme right hand position during a hunting cycle the synchronous motor 44 will correspondingly have moved the cam I03 to the position shown in Fig. 2 of the draw- I ings where the cam switch I02 is opened thereby deenergizing the relay II5. At this instant however, the cam switch I closes an energization circuit for the motor 03 to cause the motor 83 to move the stylus I3I to the position shown in Fig. 2 of the drawings.

When the receiver I0 is turned oiT the electromagnet comprising the winding I42 is deenergized through deenergization of the relay II4. However, due to the provision of the indexing or homing cam switch 46 the apparatus at the receiver attachment I00 is restored to the position shown. Similarly the stylus I3I is returned to the position shown.

In the event of power failure at the central station I0I the relays H0, H4, and H5 are deenergized, simultaneously deenergizing the motors 44 and 03. Regardless of what happens at the wave signal receiver I0 when power is restored the synchronous motors 44 and 03 start where they left off and are in phase. A power failure will be indicated by the absence of a tail ofi" trace on the recording element I5 as is fully described in copending Bateman et a1. application referred to above.

A power failure at the receiver attachment end of the apparatus causes relays 24 and 40 to be deenergized, whereupon at the central station it appears as if the wave signal receiver I0 were turned off. There is, however, no tail off trace produced on the recording element I5 when power is again restored at the receiver attachment and the synchronous motors 64 and 83 are in phase and remain so through normal operation.

It will be understood by those skilled in the art that leased telephone lines for carrying direct current are more expensive from a lease standpoint than telephone lines for carrying alternating current. Also when the power source is at the central station and the change in impedance or resistance occurs at the remotely located receiver attachment, relatively sensitive relays must be employed at the central station to detect the variations in current level.

In Fig. 3 or the drawings there is disclosed an arrangement where an alternating current source located at the receiver attachment is employed for energizing the telephone lines. In Fig. 3 the telephone lines I3 interconnect a central station I60 with a receiver attachment schematically indicated at I BI associated with a wave signal receiver not shown. At the receiver end the telephone lines I3 are connected in series with the resistors H18 and I09 and the secondary winding I53 of a transformer 164 whose primary winding IE is energized in response to energization of the series relay 24 described above. The transformer IE4 is effectively an isolating transformer, isolating the telephone lines I3 from the power source. The ends of the telephone wires I3 remote from the receiver attachment IBI are connected through a suitable rectifier unit I51 with the serially arranged windings H411 and H511 of the relays H4 and H5 respectively. When the wave signal receiver associated with the receiver attachment IBI is turned off the cam switch IE2 is open and the contacts lla of the relay 40 are also open. The contacts 4Ia are closed whenever the receiver is turned on except. when the hunter unit shows listening. The shorting of the resistor I08 which occurs thereby causes an intermediate level of current to flow through the telephone wires 13 causing energization of the relay I M to close its contacts H5, resulting in the energization of the winding I42 of the electromagnet controlling the stylus I3 I.

As illustrated the central station is provided with a source of alternating potential 3-! as in Fig. 2 of the drawings which is connected to supply the winding I42 of the electromagnet through a suitable rectifier and filter unit generally designated at I18 and the contacts III; of the relay II4. Instead of the relay H5 directly controlling the motor 83 drivin the stylus 134, a stylus control relay Ill is provided which has a set of normally open contacts I12 connected in the energization circuit of the synchronous motor 83. The winding i'Ha of the relay I'H is connected across the alternating current source 87! through a rectifier and filter unit generally designated at I73 and through the contacts I II of the relay H5. The synchronous motor 83 drives a cam switch I45 identical with that disclosed in Fig. 2 which is connected to maintain the relay I'II energized when the stylus I34 has moved to the right hand edge of the record tape 75 or in other words during the re-trace stroke of the stylus I3I.

In view of the detailed description included above the operation of the synchronous motor 33 as shown in Fig. 3 of the drawings will be understood by those skilled in the art. Two levels of alternating current flowing through the telephone wires I3 maintain the synchronous motors at each end of the telephone Wires in synchronism to provide an accurate indication at all times of the tuning condition of the wave signal receiver.

It will be understood that the telephone lines I3 might normally comprise leased telephone wires. The leasing of a pair of telephone wires would of course be substantially more expensive than the leasing of a single wire and it would be desirable to employ an arrangement in which only a single telephone wire were required with ground return or where the use of telephone wires might be dispensed with entirely and a radio link of some sort employed. Obviously in such an arrangement the multiple level current schemes disclosed in Figs. 2 and 3 of the drawings will not be satisfactory and it is necessary to resort to some other arrangement where some other characteristics which may be varied are employed to control the synchronous motors remotely disposed with respect to each other. Various means for accomplishing this might be employed such. for example, as the use of pulses which may be varied in phase, group, duration, shape and the like to perform the desired control operation. One characteristic which might readily be employed is the use of a plurality of different frequencies which can readily be transmitted over a single telephone line with ground return or which can be transmitted by means of a radio link. The variation in current level scheme is of course not satisfactory when one telephone line with ground return is employed due to the fact that there are substantial variations in the ground impedance which tend to cause unsatisfactory operation. In Fig. 4 of the drawings there is illustrated an arrangement whereby a single telephone wire or a radio link may be employed to interconnect the receiver attachment with a remote central station.

In Fig. 4 of the drawings the receiver attachment is substantially modified from that of Figs. 1, 2 and 3 of the drawings in that the connection with the local oscillator of the wave signal receiver has been entirely dispensed with and actually the arrangement shown in Fig. 4 operates satisfactorily with any receivers whether of the superheterodyne type or not.

Referring now to Fig. 4 of the drawings there is illustrated a wave signal receiver 200, the corresponding parts of which are designated by the same reference numerals as in the preceding figures of the drawing. In order to provide an indication of the tuning condition of the wave signal receiver 200 a position switch generally indicated at 20! is provided in a receiver attachment 202 which position switch is arranged to assume various switching positions in dependence upon the tuning condition of the wave signal receiver 200. Any suitable position switch may be employed and the arrangement illustrated is substantially identical with that disclosed and claimed in co-pending applications, Serial Numbers 7,647 and 7,648, Rahmel and Bentley, and

Rahmel, respectively, both filed February 11. 1948 and assigned to the same assignee as the present application, now Patents 2,484,733 and 2,484,734, respectively. Preferably the position switch is of the type disclosed and claimed in copending Krahulec application Serial No. 78,926 filed March 1, 1949, also assigned to the same assignee as the present application. As schematically illustrated the switch 21H comprises a movable member 284 which is connected with the tuning shaft of the wave signal receiver 200 by any suitable means generally indicated at M5. As schematically illustrated the means 205 is in the form of a cord or cable associated with the tuning knob 20B of the receiver 200 so as to change the position of switch member 204 in response to the changes in position of the tuning knob 206. The switching member 204 is adapted to selectively interconnect an elongated contact 208, which is connected to ground or B potential as indicated at 209, with one of a plurality of spaced contacts 2!!! specifically designated as 2I0a, 2!0b, 2I0c, 2!0d, 2I0e, 2H3 2l0g, 2I0h, 210i, 2l0gi, 2IOIc and 2 Wm. The contacts 2!0a to 2 0m, inclusive of the position switch are preferably connected with corresponding spaced contacts 2! la to 2| Im, inclusive, of a channel switch generally designated at 2|2. The channel switch 2!2 comprises a switching arm 2!3 preferably arranged to successively engage the contacts 2! which are arranged in the form of a circle uniformly spaced from each other. The switching arm M3 is preferably drivingly connected with the shaft 45 of the synchronous motor and gear train unit 44 which may be identical with the motor 44 described in the preceding figures capable of rotating the shaft 45 preferably at one revolution per minute. It will be apparent that the channelizing switch 2|2 effectively di vides the tuning positions of the wave signal receiver 200 into a plurality of uniformly spaced channels. Twelve such channels are illustrated in Fig. 4 of the drawings. It will be understood that the contacts 2l0 of the switch 20! will be suitably positioned and constructed, so that regardless of the tuning condition of the wave signal receiver 200, when it is tuned to a station corresponding to one of the contacts 2 l 0, a circuit is completed from ground 209 to the switching arm 2l3, at the instant the channelizing switch 2! 2 is in a position such that the switching arm 2I3 engages a contact connected to the particular contact 2N which is eflective at that time.

The receiver attachment 202 as in the preced ing figures includes a power supply unit 23 comprising the series relay 24 which in addition to the contacts 28 includes a normally closed set of contacts 28b, that is, the contacts 281) are closed when the series relay 24 is deenergized.

As in the preceding figures in addition to the receiver attachment 202, there is also provided a central station 2l5, which is preferably remotely located with respect to the receiver attachment 202 and consequently the wave signal receiver 200. The central station 2 I 5 and the receiver attachment 202 may be interconnected by a radio link of some sort, which will be well understood by those skilled in the art, an ordinary sixty-cycle power line, or as illustrated. may be connected by a single telephone line 2"; which is illustrated as provided with a dotted line section in order to indicate the remote relationship between the receiver attachment 202 and the central station 2!5. The single telephone line 2m with ground return is completely satisfactory with the arrangement to be described for relating the station at the receiver in the form of a receiver attachment with a remote station specifically designated as the central station 2l5. The corresponding parts of the central station and the receiver attachment identical with the parts of the arrangements previously described are designated by the same reference numerals and no further discussion thereof is made in connection with Fig. 4 of the drawings.

The receiver attachment 202 includes a pair of generators generally designated at 220 and 22! which are each capable of generating signals of predetermined frequencies. As illustrated the generator 220 has been specifically designated by way of example as a 200-cycle oscillator while the generator 22! has been designated as a 300- cycle oscillator. It will be apparent that any suitable means for producing signals having different characteristics may be provided and the specific disclosure of the oscillators 220 and 22! is by way of example only. The outputs of the oscillators 220 and 22! are connected by suitable coupling capacitors 222 and 223 respectively with the end of the telephone line 2"; adjacent the receiver attachment 202. If the power line rather than a telephone line is employed as the link the frequencies of the oscillators 220 and 22! would merely be multiplied by a factor of ten or the like. By properly controlling the operating condition of the oscillators 220 and 22! in a manner to be described hereinafter, suitable control of a synchronous motor and gear train unit 83 at the central station may be obtained.

In order to control the synchronous motor 03 in response to the operation of the oscillators 220 and 22! the central station 2I5 is provided with a pair of amplifier and detector units 221 and 226 respectively, the inputs of which are connected by suitable coupling capacitors 229 and 228 respectively with the end of the telephone line 2I6 remote from the receiver attachment 202. The outputs of the amplifier and detector units 225 and 22! are adapted respectively to the control relays 23!} and 23!. As illustrated the amplifier and detector unit 225 is a three-hundred cycle amplifier and detector unit capable of detecting a signal of the order of three hundred cycles which is received from the telephone line 2H5. Normally the amplifier and detector unit 226 is energized and the output thereof energizes the relay 230 to open its contacts 230a. When a signal having a frequency of three hundred cycles is detected by the unit 226 the relay 230 is energized to open the contacts 230a.

Similarly the amplifier and detector unit 22! is illustrated as a two hundred-cycle amplifier and detector unit capable of detecting the presence of a signal having a frequency of the order of two hundred cycles. Normally and in the absence of the presence of the two hundred cycle signal the relay 23! is energized to open its contacts 2am and close its two sets of contacts 23Ib and 23Ic respectively. When the two hundredcycle oscillator 23! is effective to produce a signal which is detected by the unit 221, the relay 23! is deenergized whereby contacts 23la are closed and contacts 23!?) and 23Ic are opened.

For the purpose of controlling the synchronous motor 113 in response to predetermined operations of the relays 23B and 23!, the motor 83 is connected to the power source 01 through the contacts 2300: of the relay 230 connected in series with the contacts 23!!) of the relay 23! and a cam switch comprising the switching member 233 and a contact 234. The switch comprising the members 233 and 234 is adapted to be closed only for a predetermined indexing position of the synchronous motor 83. It will be apparent that with the circuit described thus far the synchronous motor 83 will be energized in response to the presence of a three hundred-cycle signal and the absence of a two hundred-cycle signal when the synchronous motor is in its homing or indexing position shown in Fig. 4 of the drawings. The synchronous motor 83, however, can also be energized through the contacts 23m which are con nected in series with the contacts 230a and the cam switch comprising the switching member 233 and a stationary contact member 235 which latter acvaosc cam switch is closed for all positions except the homing or indexing position of the synchronous motor 83. The synchronous motor 83 may further be energized through the contacts 23Ic and the contact 235 in the absence of any signal from the receiver attachment 232 or at any rate in the absence of a two hundred-cycle signal when the synchronous motor 83 is in other than its homing or indexing position. The presence or absence of a three hundred-cycle signal has no effect under these conditions.

The synchronous motor is illustrated as being drivingly connected by its shaft 135 to the recordor unit 240. The recorder unit 24!] is in many respects similar to the recorder I30 disclosed in Figs. 2 and 3 of the drawings and the corresponding parts are designated by the same reference numerals. However, the recorder 240 is provided with a quick return stylus 24! which is normally biased by a spring 242 against a stop 243. The stylus 24! is pivotally mounted upon a shaft 244 connected to a crank arm 245, having a cam follower 245 at its free end. The cam follower 246 is adapted to engage the periphery of a cam 241 mounted upon the shaft I35. The crank 245 is preferably designed to permit proper cooperation of the cam follower 246 with the cam 241. It will be apparent that when the high point of the cam 24'! engages the cam follower 246 the inscribing point 24m of the stylus MI is moved to the right hand edge of the recording element or tape 15 as viewed in Fig. 4 of the drawings. Immediately upon rotation of the cam 241 in the direction of the arrow indicated, the cam follower 245 passes the high point of the cam whereupon the spring 242 is free to move the stylus 714i at high speed to the left hand edge of the recording element I5. Thereafter the cam surface of the earn 241 causes the stylus 24! to move across the recording element 15 with the inscribing portion 24la producing a trace in a well understood manner. If the synchronous motor should be deenergized at any point during its rotation the stylus 24l would produce a trace indicative of such position and also indicative of the tuning condition of the wave signal receiver 200.

Considering now the means in the receiver attaclnnent 262 for controlling the oscillators 220 and 22 I, there is provided a first controlling relay 25d and a second controlling relay 252. In addition there is also provided a cam switch 254 comprising a cam 255 rotatably mounted for rotation with the motor shaft 45. The cam 255 is adapted to actuate a switching member 256 for engaging contact 251 only when the synchronous motor M is its indexing or homing position as controlled by the cam 45 described above. The first controlling relay 253 has its winding connected series with the contacts 258 of a thermal relay The thermal relay 259 is adapted to close its taots 258 at a predetermined time after the s ries relay 24 is energized, which time is suffic ent to permit the filaments of the electron dischar e valves employed in the receiver attachment and particularly in the generators 220 and 2 to heat up to operating temperature. As illustrated a filament transformer 26!! is enered from the power supply unit 23 and a remstor 26! in series with the secondary winding d the transformer 260, or as illustrated in series with the primary winding, is adapted to heat a heat sensitive element of a thermal relay 259 whereupon the contacts 258 are closed a predetermined time after the series relay 24 closes its contacts 23. The secondary winding of the filament transformer 26!] is illustrated, but the connections to the filaments of the electron discharge valves have been omitted for the purpose of simplifying the drawings.

As illustrated the first controlling relay 250 has one terminal of its winding connected to the +3 terminal 3| through a conductor 263 and the cam switch 254. The other terminal of the winding of the relay 25B is connected through the contacts 258 of the thermal relay 259 and a current limiting resistor 264 to the B terminal indicated as ground 265 The first controlling relay 250 is therefore energized whenever the thermal relay 258 closes its contacts 258 and the cam switch 254 is closed which can occur only at the homing or indexing position of the synchronous motor 44.

The synchronous motor 44 is illustrated as being energized from the power supply unit 23 through conductors 251 and two parallel arranged sets of contacts 252a and 252!) of the second controlling relay 252, one set of contacts 252a and 2521) being connected in each of the conductors 251. It will be apparent from Fig. 4 that the synchronous motor 44 is energized whenever the series relay 24 is energized and the sec? ond controlling relay 252 is deenergized. The relay 252 might be designated as a channel switch relay primary because its energization depends on the flow of current through the channel switch 263, one terminal of the winding of the relay 252 being connected to the switching member BIS through a current limiting resistor 26!! while the other terminal of the winding of the relay 252 is connected to the +B potential terminal 3| through parallel paths. one including the contacts 253a of the relay 250 and the other including the seal-in contacts 2520 of the relay 252.

The relay 25S effectively controls the supply of +B potential to the 200 cycle oscillator 22!! and to this end is provided with a set of contacts 250!) which when closed connect the oscillator 220 with the +13 potential terminal 3|. The contacts 250?) are closed when the relay 250 is deenergized. The relay 250 further includes a set of seal-in contacts 2550 which are connected in series with the contacts 252d of the relay 252 to the source of +3 potential in parallel with the cam switch 254. With this arrangement the relay 25!! when once energized remains energized as long as the relay 252 is deenergized, regardless of the position of the cam switch 254 assuming of course that the thermal relay 259 maintains its contacts 258 in a closed position.

The contacts 252d of the relay 252 control the supply of +13 potential to the oscillator 22! and consequently the relay 252 is effectively a control relay for the oscillator 22I while the relay 252 is a control relay for the oscillator 223.

A better understanding of the arrangement disclosed in Fig. 4 of the drawings will be obtained from a description of the operation of the apparatus. Assume. for example, that the wave signal receiver 206 is turned on and the corresponding parts of the apparatus are as illustrated in the drawings with the relays 23B and 23l energized by virtue of the absence of signals of two hundred and three hundred cycles frequency respectively. When the receiver 200 is turned on by manipulation of the on-oif switch It, the series relay 24 is energized to close its contacts 22 to supply power to the power supply unit 23. The flow of current through the resister 25! initiates the operation of the thermal relay 255 but its contacts 258 are not closed until a predetermined time elapses. This time is suflicient to permit the electron discharge valves to heat up to the operative conditions in response to the supply of filament current there to. Since the relay 2'52 is deenergized the synchronous motor 44 is energized and begins to rotate the shaft 45 at one revolution per minute, the synchronous motor starting from the homing position shown. This immediately opens the cam switch 254. The synchronous motor rotates the channel switch arm 2 I3 for one complete revolution before anything further happens. During this time the electron discharge valves heat up and +13 potential is supplied to the oscillators 2'28 and 22! from the terminal 3! through the contacts 255?; and 25252 respectively. The simultaneous presence of signals of frequencies of two hundred and three hundred cycles respectively causes the deenergization of both of the relays 23f: and 23! at the central station 2l5. However, the simultaneous deenergization of the relays 235. and 23! does not complete an energizing circuit from the synchronous motor 83 and consequently the motor 83 remains in the position shown in Fig. 4 of the drawings. When the synchronous motor 44 has made a complete revolution the cam switch 254 again closes the circuit at the contact 25? momentarily. By this time the thermal relay 25G has closed its contacts 258 with the result that the momentary closing of the cam switch 25:; causes energization of the relay 250 with the resultant opening of the contacts 25M; and the closing of the contacts 259a and 2580. The opening of the contacts 25th removes +B potential from the oscillator 228 with the resultant deenergization thereof. The closing of the contacts 259C seals in the relay 250 as long as the relay 252 is deenergized and the opening of the cam switch 25 with the continuous rotation of the syn chronous motor M will not cause deenergization of the relay 259. The closing of the contacts 250a, on the other hand, will condition the relay 252 for energization by supplying +B potential to one terminal thereof.

It will be understood that the absence of a signal having a frequency of two hundred cycles at the central station 215 will cause the relay 23! to become energized as shown. Since the presence of a signal having a frequency of three hundred cycles causes the relay 23!! to remain deenergized with its contacts 230a closed with the net result that the synchronous motor 83 is energized and follows the motion of the channel switch motor 44. The synchronous motor 44 continues to rotate the channel switch arm 2H3 until it engages the contact 2!! corresponding with the switch contact 250 engaged by the switching member 294 which is indicative of the channel to which the wave signal receiver 290 is tuned. At this instant the energizing circuit for the relay 252 is completed through the channel switch H2 and the station selector switch 29! with the result that the relay 252 opens its contact-s 252a and 2522: to stop the synchronous motor 45. Simultaneously it opens its contacts 252d to remove +B potential from the oscillator MI. The absence of a signal having a frequency of three hundred cycles at the central station 215 causes operation of the relay 2% to open the circuit of the synchronous motor 83. The relay 252 is sealed in by virtue of its seal-in contacts 252a and remains in this condition so long as the wave signal receiver 20!! remains tuned to the particular channel which has caused the synchronous motor 44 to stop in the predetermined position. The opening of the contacts 25212 of the relay 252 interrupts the circuit for the relay sen which drops out re-storing +13 potential to the two hundred cycle oscillator with the result that a signal having a frequency of two hundred cycles is again supplied to the central station 2 l 5, deenergizing the relay 23l thereby stopping the synchronous motor 83 at the same position that the synchronous motor 44 is stopped. When the receiver 260 is turned oil, the series relay 24 is deenergized opening its contacts 28, whereupon the source of +3 potential is interrupted. The closing of contacts 282) completes a circuit in parallel with the winding of the relay 252 through the channel switch arm 2| 3 thereby causing immediate deenergization of the relay 252. This causes the relay 230 to assume the position shown in Fig. 4 with the result that the synchronous motor 83 can only be energized through the contacts 23|c and the contact 235 of the cam switch thereby causing the synchronous motor 83 to re turn to its homing or indexing position. Similarly the cam switch 46 causes the synchronous motor 44 at the receiver attachment to return to its indexing or homing position ready for the next operation of the receiver attachment following a subsequent turning on of the receiver 205.

Changing the tuning of the receiver 2%, without turning ofi the receiver, causes movement of the switch arm 2| 3 and breaks the energization circuit of the relay 252 whereupon motor 44 is reenergized and the 300-cycle oscillator is simultaneously rendered eifective. Since the ZOO-cycle oscillator has been operating the motor 83 is restarted with the circuit completed through contacts 230a, 2am and 235.

As has been mentioned above, it may be desirable, instead of employing one or more telephone lines to employ the sixty-cycle power lines themselves as the link between the receiver attachment and the central station. This would be particularly desirable in the case where the central station is located in a collaborators home to record the listening habits of wave signal receivers disposed in the home. In such a case, the arrangement of Fig. 4 would be entirely satisfactory if the frequency of the oscillators 220 and 22! were increased about ten fold. Consequently. by way of example, a three thousand cycle and a two thousand cycle oscillator might be employed in the receiver attachment, and corresponding amplifiers and detectors would be provided in the central station. The receiver attachment and the central station would be coupled to the conventional housewiring circuit by suitable capacity coupling means which would effectively isolate the Gil-cycle power current but readily pass the two thousand or three thousand cycle signal currents. Instead of the power wires a. space link could obviously be employed.

It will be apparent that the present invention is particularly well adapted for use in multi-recelver homes. In such a case each receiver in the home would have a receiver attachment similar for example to that shown in Fig. 4, but the oscillator frequencies employed would be different for each receiver so as to uniquely identify the individual receivers at a single central station. At the single central station channels for receiving the signals sent out by the various receiver attachments would be provided. If desired the central station could be provided with a stylus for each receiver being monitored, or a single stylus could be employed with a time-sharing arrangement, or a single stylus could be employed which also indicates which receiver or receivers are effective to produce a record on the recording element as well as a record of the stations tuned in by such receiver or receivers.

Although several embodiments of the present invention have been illustrated and described it will be understood by those skilled in the art that various modifications and changes are capable of being made with respect thereto. It is intended in the appended claims to cover all such changes and modifications as fall within the true spirit and scope of the present invention.

What is claimed as new and desired to be secured by Letters Patent of the United States is:

1. In a system for determining the audience response to programs broadcast from different wave signal transmitters and received by a monitored wave signal receiver capable of being selectively tuned to different ones of said transmitters, the combination of a receiver attachment including means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with respect to said receiver attachment, a signal link interconnecting said receiver attachment and said central station, a first synchronous motor in said receiver attachment, receiver tuning responsive condition means for causing said first synchronous motor to assume and maintain a position indicative of the tuning condition of said receiver when said receiver is tuned to one of said transmitters, a second synchronous motor at said central station, and means including said signal link for causing said second synchronous motor to assume and maintain positions correspending with those of said first synchronous motor.

2. In a system for determining the audience response to programs broadcast from different wave signal transmitters and received by a monitored wave signal receiver capable of being se lcctively tuned to different ones of said transmitters, the combination of a receiver attachment including means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with respect to said receiver attachment, a signal link interconnecting said receiver attachment and said central station, a first synchronous motor in said receiver attachment, receiver tuning responsive conditions means for energizing said first synchronous motor to cause said motor to assume a position indicative of the tuning condition of said receiver when said receiver is tuned to one of said transmitters and then deenergizing said motor, a second synchronous motor at said central station, means including said signal iinl: for causing said second synchronous motor to be energized simultaneously with said first synchronous motor, and means responsive to the tuning of said receiver to one of said transmitters for providing at said central station a signal causing deenergization of said second motor at the instant said first motor reaches a position corresponding to the tuning condition of said receiver.

3. In a system for determining the audience response to programs broadcast from diiierent wave signal transmitters and received by a monitored wave signal receiver capable of being selectively tuned to different ones of said transmitters, the combination of a receiver attachment including means'for receiving a signal from said receiver and disposed closely adjacent there-- to, acentral station remotely located with re spect to said receiver attachment, a signal link interconnecting said receiver attachment and said central station, a first synchronous motor in said receiver attachment, receiver tuning responsive condition means for energizing said first synchronous motor to cause said motor to assume a position indicative of the tuning condition of said receiver when said receiver is tuned to one of said transmitters and then deenergizing said motor, means for causing said first motor to assume an indexing position when said receiver is turned off, a second synchronous motor at said central station, means causing said second synchronous motor to assume an indexing position when said receiver is turned off, and means including said signal link responsive to the tuning of said receiver to one of said transmitters for causing said second synchronous motor to assume positions corresponding with those of said first synchronous motor.

4. In a system for determining the audience response to programs broadcast from different wave signal transmitters and received by a monitored wave signal receiver capable of being selectively tuned to different ones of said transmitters, the combination of a receiver attachment including means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with respect to said receiver attachment, a signal link interconnecting said receiver attachment and said central station, a first synchronous motor in said receiver attachment, receiver tuning responsive condition means for energizing said first synchronous motor to cause said motor to assume and maintain a position indicative of the tuning condition of said receiver when said receiver is tuned to one of said transmitters, a second synchronous motor at said central station, means including said signal link for causing said second synchronous motor to assume and maintain positions corresponding with those of said first synchronous motor, and means responsive to the position of said second synchronous motor for producing a record at said central station of the tuning condition of said receiver.

5. Apparatus for determining the audience response to programs broadcast from different wave signal transmitters and received by a monitored wave signal receiver capable of being se lectively tuned to diiTerent ones of said transmitters, comprising a receiver attachment ineluding means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with respect to said receiver attachment, a signal link interconnecting said receiver attachment and said central station, a first synchronous motor in said receiver attachment, receiver tuning responsive condition means for energizing said first synchronous motor to cause said motor to assume a position indicative of the tuning condition of said receiver when said receiver is tuned to one of said transmitters, a second synchronous motor at said central station, means for energizing said second motor so as to be in synchronism with said first motor, means operative at the instant said first motor reaches a position indicative of the tuning condition of said receiver for producing a signal to stop said second motor, and means for producing a record of the position of said second motor indicative of the tuning condition of said receiver.

6. In a system for determining the audience response to programs broadcast from different wave signal transmitters and received by a monitored wave signal receiver capable of being selectively tuned to different ones of said transmitters, the combination of a receiver attachmerit including means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with re spect to said receiver attachment, a signal link interconnecting said receiver attachment and said central station, a first synchronous motor in said receiver attachment, means for energizing said first synchronous motor in response to turning on or retuning said receiver, receiver tuning responsive condition means for stopping said first synchronous motor at a position indicative of the tuning condition of said receiver when said receiver is tuned to the frequency of one of said transmitters, signal producing means for pro ducing signals capable of being transmitted over said link, means operative simultaneously with the energization of said first motor for modifying said signal producing means to cause a signal having a first predetermined characteristic to be transmitted over said link, means operative with said means for stopping said first motor for modifying said signal producing means to cause a signal having a second predetermined characteristic to be transmitted over said link, a sec ond synchronous motor at said central station, means for energizing said second motor in response to the transmission over said link of said signal having said first predetermined characteristic, and means for stopping said second motor in response to the transmission over said link of a signal having said second predetermined characteristic.

7. In a system for determining the audience response to programs broadcast from different wave signal transmitters and received by a monitored wave signal receiver capable or" being selectively tuned to different ones of said transmitters, the combination of a receiver attachment including means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with respect to said receiver attachment, a signal link interconnecting said receiver attachment and said central station, a first synchronous motor in said receiver attachment, means for energizing said first synchronous motor in response to turning on or retuning said receiver, receiver tuning responsive condition means for stopping said first synchronous motor at a position indicative of the tuning condition of said receiver when said receiver is tuned to the frequency of one of said transmitters, signal producing means in said receiver attachment for producing signals of two different predetermined frequencies capable of being transmitted over said link, a second synchronous motor at said central station normally stopped in a predetermined position, means operative when said first motor is in a position identical with said predetermined po sition of said second motor for causing said signal producing means to produce a signal having only one of said two predetermined frequencies, means operative with said means for stopping said first motorfor causing said signal producing means to discontinue producing a signal having said one predetermined frequency, means for energizing said second motor in response to the presence at said central station of a signal of said one frequency and the absence of the signal of the other frequency, and means for stopping said second motor in response to the absence at said central station of a signal having said one frequency.

8. In a system for determining the audience response to programs broadcast from different wave signal transmitters and received by a monitored wave signal receiver capable of being selectively tuned to difierent ones of said transmitters, the combination of a receiver attachment including means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with respect to said receiver attachment, a signal link interconnecting said receiver attachment and said central station, a first synchronous motor in said receiver attachment, means for energizing said first synchronous motor in response to turning on or retuning said receiver, receiver tuning responsive condition means for stopping said first syn chronous motor at a position indicative of the tuning condition of said receiver when receiver is tuned to the frequency of one of said transmitters, signal producing means for producsignals of two different predetermined frequencies capable of being transmitted over said link, means for controlling said signal producing means selectively to produce only one, both, or none of said signals of two diiferent predeten mined frequencies, a second synchronous motor at said central station, means for energizing said second motor in response to the presence of one and the absence of the other of said signals of two difiierent predetermined frequencies, and means for stopping said second motor in response to the absence of a signal of said one predetermined frequency and the presence or" a signal of the other predetermined frequency.

9. Apparatus for determining the audience response to programs broadcast from different wave signal transmitters and received by a monitored wave signal receiver capable of being selectively tuned to different ones of said transmitters, comprising a receiver attachment including means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with respect to said receiver cttachment, a signal link interconnecting said receiver attachment and said central station, a first synchronous motor in said receiver attacl1- ment, means for energizing said first synchronous motor in response to turning on or rctuning said receiver, receiver tuning responsive condition means for stopping said first synchronous motor at a position indicative of the tuning condition of said receiver when said receiver is tuned to the frequency of one of said transmitters, si nal producing means in said receiver attachment for producing signals of two different predetermined frequencies capable of being transmitted over said link, a second synchronous motor at said central station normally stopped in. a predetermined position, means operative when first motor has rotated to a position identical with said predetermined position of second motor for causing said signal producing mean to produce a signal having only one of Sn (1 two predetermined frequencies, means operative wi h said means for stopping said first motor for causinc aid signal producing to d scon"*rio producing a signal having said one predete ed frequency, means for energizing said second motor in response to the presence at said central station of a signal of said one frequencv and the absence of the signal of the other frequency, and means for stopping said second motor in response 25 to the absence at said centralstation of a signal having said one frequency and the presence of a signal of the other frequency.

10. In a system for determining the radio listening or television viewing habits of users of a wave signal receiver, the combination of a receiver attachment including means for receiving a signal from said receiver and disposed closely adjacent thereto, a. central station remotely lo" cated with respect to said receiver attachment, signal link interconnecting said receiver attachment and said central station, a first synchronous motor in said receiver attachment, means for causing said first motor to stop in an indexing position when said receiver is turned oil, means for energizing said first syn= chronous motor when said receiver is turned .1, receiver tuning responsive condition means for stopping said first synchronous motor at a position indicative of the tuning condition of said receiver when said receiver is tuned to one of a predetermined number of channels, a second synchronous motor at said central station, means including said signal link for causing said second synchronous motor to stop at an indexing position corresponding to the indexing position of said first motor, means for energizing and deenergizing said second motor simultaneously with the energization and deenergiza-tion of said first motor whereupon said second motor provides at said central station an indication of the tuning condition of said receiver.

11. Apparatus for determining the radio listening or teievision viewing habits of users of a wave signal receiver, comprising a receiver attachment including means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with respect to said receiver attachment, a signal link interconnecting said receiver attachment and said central station, means for causing currents of two different levels to flow over said link, a first synchronous motor in said receiver attachment, means for causing said first motor to stop in an indexing position when said receiver is turned off, means for energizing said first synchronous motor when said receiver is turned on and causing a current of one level to flow over said link, receiver tuning responsive condition means for stopping said first synchronous motor at a position indicative of the tuning condition of said receiver when said receiver is tuned to one of a predetermined number of channels and causing a current of said second level to fiow over said link, a second synchronous motor at said central station, means for causing said second synchronous motor to stop at an indexing position corresponding to the indexing position of said first motor, means for energizing said second motor when a current of said first level flows over said link, and means for deenergizing said second motor when a current of said second level flows over said link, whereupon said second motor provides at said central station an indication of the tuning condition of said receiver.

12. Apparatus for determining the radio listening or television viewing habits of users of a wave signal receiver, comprising a receiver attachment including means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with respect to said receiver attachment, a signal link interconnecting said receiver attachment and said central station, means for causing signals of two different frequencies to be transmitted over said link,

a first synchronous motor in said receiver attachment, means for causing said first motor to stop in an indexing position when said receiver is turned off, means for energizing said first synchronous motor when said receiver is turned on and causing a signal of one of said frequencies to be transmitted over said link, receiver tuning responsive condition means for stopping said first synchronous motor at a position indicative of the tuning condition of said receiver when said receiver is tuned to on of a predetermined number of channels and causing a signal of the other of said two different frequencies to be transmitted over said link, a second synchronous motor at said central station, means for causing said sec-- ond synchronous motor to stop at an indexing position corresponding to the indexing position of said first motor, means for energizing said second motor when a signal of said one frequency is transmitted over said link, and means for deenergizing said second motor when a signal of said other frequency is transmitted over said link, whereupon said second motor provides at said central station an indication of the tuning condition of said receiver.

13. Apparatus for determining the radio listening or television viewing habits of users of a wave signal receiver, comprising a. receiver attachment including means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with respect to said receiver attachment, a signal link interconmeeting said receiver attachment and said central station, a source of direct current energy at said central station, means for causing currents of two different levels to fiow over said link from said source, a first synchronous motor in said receiver attachment, means for causing said first motor to stop in an indexing position when said receiver is turned off, means for energizing said first synchronous motor when said receiver is turned on, means operative simultaneously with said last mentioned means for causing a current of one level to flow over said link, receiver tuning responsive condition means for stopping said first synchronous motor at a position indicative of the tuning condition of said receiver when said receiver is tuned to one of a predetermined number of channels, means operative simultaneously with said last mentioned means for causing a current of said second level to flow over said link, a second synchronous motor at said central station, means for causing said second synchronous motor to stop at an indexing position corresponding to the indexing position of said first motor, means for energizing said second motor when a current of said first level flows over said link, and means for deenergizing said second motor when a current of said second level flows over said link, whereupon said second motor provides at said central station an indication of the tuning condition of said receiver.

14. Apparatus for determining the radio listening or television viewing habits of users of a wave signal receiver, comprising a receiver attachment including means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with respect to said receiver attachment, a signal link interconnecting said receiver attachment and said central station, means for causing currents of three difierent levels to fiow over said link, a first synchronous motor in said receiver attachment, means for causing said first motor to stop in an indexing position when said receiver is turned 011, means for energizing said first synchronous motor when said receiver is turned on and causing a current of one level to flow over said link, receiver tuning responsive condition means for stopping said first synchronous motor at a position indicative of the tuning condition of said receiver when said receiver is tuned to one of a predetermined number of channels and causing a current of said second level to flow over said link, a second synchronous motor at said central station, means including said signal link for causing said second synchronous motor to stop at an indexing position corresponding to the indexing position of said first motor, means for energizing said second motor when a current of said first level flows over said link, means for deenergizing said second motor when a current of said second level flows over said link, whereupon said second motor provides at said central station an indication of the tuning condition of said receiver, and a power failure relay controlled by the current of a third level flowing over said link.

15. In a system for determining the radio listening or television viewing habits of users of wave signal receivers, the combination of a receiver attachment including means for receiving a signal from said receiver and disposed closely adjacent thereto, a central station remotely located with respect to said receiver attachment, a signal link interconnecting said receiver attachment and said central station, a first synchronous motor in said receiver attachment,

28 means for causing said first motor to stop in an indexing position when said receiver is turned off, means for energizing said first synchronous motor when said receiver is turned on, receiver tuning responsive condition means for stopping said first synchronous motor at a position indicative of the tuning condition of said receiver when said receiver is tuned to one of a predetermined number of channels, a second synchronous motor at said central station, means including said signal link for causing said second synchronous motor to stop at an indexing position corresponding to the indexing position of said first motor, means comprising a source of signals having two different characteristics for energizing and deenergizing said second motor simultaneously with the energization and deenergization of said first motor whereupon said second motor provides at said central station an indication of the tuning condition of said receiver.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,933,650 Bascom Nov. 7, 1933 1,959,388 Shiokawa May 22, 1934 1,996,677 Leeson et a1 Apr. 2, 1935 2,249,324 Potter July 15, 1941 2,381,920 Miller Aug. 14, 1945 2,484,733 Rahmel et al. Oct. 11, 1949 2,484,734 Rahmel Oct. 11, 1949 2,618,694 Black Nov. 18, 1952 

